Simulation and modeling of laser range profiling and imaging of small surface vessels

Steinvall, Ove; Chevalier, Tomas; Grönwall, Christina

doi:10.1117/1.oe.53.1.013109

Cited by 11 publications

(5 citation statements)

References 22 publications

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“…A comprehensive and coherent risk assessment is not expectable until common modeling with verified data is established. Recent progress in modelling of environmental scenes is tremendous, for example as shown in [30]. However consumption of resources of such simulations is high, a lot of data has to be gathered, fitted to the models and processed.…”

Section: Further Studies Requirements and Possible Solutionsmentioning

confidence: 99%

Quantitative laser safety analysis for application of high-energy lasers in a field test

2014

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There is a variety of national and international standards for laser safety analysis requesting for risk reduction of hazards due to laser radiation. A lot of risks are already addressed by the standards. Thus appropriate evaluation methods for calculating dangerous radiation levels and measures for risk reduction are available for certain types of risks. However, when high energy lasers are applied in outdoor environments a variety of additional risks may arise. Due to high laser energy and varying outdoor environmental conditions, appearance and options of risks increase. Assuming that radiation can be held below certain Maximum Permissible Exposure (MPE) levels anywhere in the unmonitored surrounding is impracticable when high energy lasers (HEL) are applied in outdoor environments. Therefore, an adjusted approach of methodology and appropriate materials, i.e. data and algorithms for risk assessment, is necessary.In the study reported here, we conduct a probabilistic risk assessment (PRA) focused on an application of HEL radiation in outdoor field tests. Thus we identify hazards within a particular field test environment and estimate the risks associated to these hazards using a probabilistic approach. The risks are assessed for being acceptable by probability of occurrence and severity. General risk management processes then demand that risks that exceed an acceptable level need to be reduced through appropriate risk reduction measure that either reduce the probability of occurrence or the consequences of an accident associated to that hazard. After having verified that all our recommended measures are implemented to a sufficient extend, field tests may be conducted.

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Section: Further Studies Requirements and Possible Solutionsmentioning

confidence: 99%

Quantitative laser safety analysis for application of high-energy lasers in a field test

2014

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“…To the best of our knowledge, previous studies have shown that the ELPP is mainly affected by the response of detectors [12], targets shape [13] and atmosphere, etc [14]. Although previous studies have presented relative results on the ELPP affected by targets [5,15,16], the results are based on the assumption of neglecting effect from atmospheric turbulence. Meanwhile, the theoretical model of the ELPP of a target with arbitrary shape has not been studied under the condition of combinations of target and atmospheric turbulence.…”

Section: Introductionmentioning

confidence: 96%

“…With the fast development of pulse laser, many detecting sensors such as ranging sensors [1,2] and three-dimensional (3D) sensors [3,4] have been studied and developed. Moreover, target recognition based on pulse laser has attracted much attention these years due to its ability to acquire echo pulse with high accuracy and efficiency [5,6]. Therefore, it has been widely used in applications including remote sensing [7], navigation [8] and tracking [9], etc.…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, it has been widely used in applications including remote sensing [7], navigation [8] and tracking [9], etc. It is well known that echo laser pulse profile (ELPP) is one of the most important features, which only reflects the shape of target [9], but also affects the performances of 3D image [5]. For target recognition based on the ELPP, compared with traditional methods based on imaging process, the shape of the target is obtained by the use of the ELPP without optical scanning system [10].…”

Section: Introductionmentioning

confidence: 99%

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Analytical and numerical approaches to study echo laser pulse profile affected by target and atmospheric turbulence

et al. 2016

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The integrated model of echo laser pulse profile (ELPP) of a target with arbitrary shape is studied under the condition of the ELPP affected by target and atmospheric turbulence simultaneously. The ELPPs of four typical targets (a plane, a cone, a sphere and an aspherical surface) are employed to test the validity of the model by analytical and numerical approaches. Based on simulations of the ELPP under different targets and atmospheric turbulence intensity, the results show a good agreement between two methods, and the ELPP of a target with discontinuous surface is more easily affected by atmospheric turbulence than that with a continuous surface. Besides that, we study the relationship between the number of grids and the relative error of analytical and numerical approaches, which are of interest to obtain the optimal number of grids used in the simulations.

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“…Optical range-based sensors such as stereo vision [1][2][3][4] and scanning light detection and ranging (LIDAR), [5][6][7] have commonly been used in target surface acquiring. Optical range-based sensors such as stereo vision [1][2][3][4] and scanning light detection and ranging (LIDAR), [5][6][7] have commonly been used in target surface acquiring.…”

Section: Introductionmentioning

confidence: 99%

Dense surface reconstruction based on the fusion of monocular vision and three-dimensional flash light detection and ranging

Hao

Zhao

et al. 2015

Opt. Eng

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A dense surface reconstruction approach based on the fusion of monocular vision and three-dimensional (3-D) flash light detection and ranging (LIDAR) is proposed. The texture and geometry information can be obtained simultaneously and quickly for stationary or moving targets with the proposed method. Primarily, our 2-D/3-D fusion imaging system including cameras calibration and an intensity-range image registration algorithm is designed. Subsequently, the adaptive block intensity-range Markov random field (MRF) with optimizing weights is presented to improve the sparse range data from 3-D flash LIDAR. Then the energy function is minimized quickly by conjugate gradient algorithm for each neighborhood system instead of the whole MRF. Finally, the experiments with standard depth datasets and real 2-D/3-D images demonstrate the validity and capability of the proposed scheme.

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Simulation and modeling of laser range profiling and imaging of small surface vessels

Cited by 11 publications

References 22 publications

Quantitative laser safety analysis for application of high-energy lasers in a field test

Quantitative laser safety analysis for application of high-energy lasers in a field test

Analytical and numerical approaches to study echo laser pulse profile affected by target and atmospheric turbulence

Dense surface reconstruction based on the fusion of monocular vision and three-dimensional flash light detection and ranging

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